Glossary and Acronyms
A | D | E | F | H | I | O | P | R | S | V | W | Z
A
AC: Alternating current
ACE: Area control error
AGC: Automatic generation control
AVR: Automatic Voltage Regulator
D
DC: Direct current
DERA1:
Dynamic: Refers to data and simulations for power system transient simulations using differential equations. Common examples include signal stability analysis to verify the power system will maintain stability in the few seconds following an unexpected fault or generator trip. For contrast, see the definition for Static data.
E
- EMF: Electromotive force
- ESAC: IEEE Type AC Excitation System model
- ESDC: IEEE Type DC Excitation System model
- EXAC: IEEE Type AC Excitation System (modified) model
- EXPIC: Proportional/Integral Excitation System from PSS/E
- EXST: IEEE Type ST (Static) Excitation System model
- EX4VSA: IEEE Excitation System for Voltage Security Assessment with Over-Excitation Limits.
F
Forecast: Predicted values of a time-varying quantity that commonly features a look-ahead and can have multiple data values representing each time period. This data is used in simulation with receding horizons or data generated from forecasting algorithms. See the article on
Time Series Data
.Forecast window: Represents the forecasted value starting at a particular initial time. See the article on
Time Series Data
.
H
Horizon: Is the duration of all time steps in one forecast. As of PowerSystems.jl version 4.0, all horizons in
PowerSystems.jl
are represented as aDates.Period
. For instance, many Day-ahead markets will have an hourly-resolution forecast for the next day, which would have a horizon ofDates.Hour(24)
orDates.Day(1)
. If the forecast included the next day plus a 24-hour lookahead window, the horizon would beDates.Hour(48)
orDates.Day(2)
. See the article onTime Series Data
.HVDC: High-voltage DC
I
IEEET: IEEE Type I Excitation System.
Injector or Injection: Injectors refer to models that represent how a generator or storage device injects power or current into the power system. Loads are negative injectors. In
PowerSystems.jl
, some components can accept data for bothStaticInjection
andDynamicInjection
models for both static and dynamic modeling.Interval: The period of time between forecast initial times. In
PowerSystems.jl
all intervals are represented usingDates.Period
types. For instance, in a Day-Ahead market simulation, the interval is usuallyHour(24)
.Initial time: The first time-stamp in a forecast window. See the article on
Time Series Data
.IPC: Interconnecting power converter
O
- OEL: Over Excitation Limiter
P
PLL: Phase-locked loop
PSS: Power System Stabilizer
PSSE or PSS/E: Siemens' PSS®E Power System Simulator for Engineering
PPA: Power purchase agreement
PSI:
PowerSimulations.jl
PSLF: GE Vernova's Positive Sequence Load Flow Software
PSY:
PowerSystems.jl
(this package)pu or p.u.: Per-unit
R
- REECB1: Renewable Energy Electric Controller Type B1
- REPCA1: REPCA1: Renewable Energy Power Controller Type A1
- Resolution: The period of time between each discrete value in a time series. All resolutions are represented using
Dates.Period
types. For instance, a Day-ahead market data set usually has a resolution ofHour(1)
, a Real-Time market data set usually has a resolution ofMinute(5)
.
S
SCRX: Bus Fed or Solid Fed Static Exciter
SEXS: Simplified Excitation System model from PSS/E
SIL: Surge impedance loading
States: Correspond to the set of inputs, outputs or variables, that evolve dynamically in
PowerSimulationsDynamics.jl
, commonly via a differential-algebraic system of equations. InPowerSystems.jl
, a component associated to aDynamicInjector
(for example an AVR) specifies the set of states that specific component requires to be modeled accurately.Static: Typically refers to steady state data or models where the power system and each of its components are assumed to be operating at a steady state equilibrium point. This includes both power flow data for a single time point simulation as well as quasi-static time series data and models, where the power system is at an equilibrium point at each time step. Static data can be used as the input to single time point power flow models and production cost models with, for example, 5-minute, 15-minute, or 1-hour Resolution. For contrast, see the definition for Dynamic data.
STAB: Speed Sensitive Stabilizing PSS Model
V
VSCDCLine: Voltage-Source Converter Direct Current Line
VSM: Virtual Synchronous Machine
W
- Window: A forecast window is one forecast run that starts at one initial time and extends through the forecast horizon. Typically, a forecast data set contains multiple forecast windows, with sequential initial times. For example, a year-long data set of day-ahead forecasts contains 365 forecast windows
Z
- ZIP load: A ZIP load model accounts for the voltage-dependency of a load and is primarily used for dynamics modeling. It includes three kinds of load: constant impedance (Z), constant current (I), and constant power (P), though many dynamics models just use the constant impedance model.
StandardLoad
andExponentialLoad
are both ZIP load models:StandardLoad
breaks up the load into each of its three components, whileExponentialLoad
expresses the load as an exponential equation.